1.1 Nickson, RT; McArthur, JM; Ravenscroft, P; Burgess, WG; and others.
 Mechanism of arsenic release to groundwater, Bangladesh and West Bengal. 
 pp. 403-413

 1.2 Lang, LO.
 Heavy mineral weathering under acidic soil conditions. 
 pp. 415-423

 1.3 House, WA; Denison, FH; Warwick, MS; Zhmud, BV.
 Dissolution of silica and the development of concentration
 profiles in freshwater sediments.
 pp. 425-438

 1.4 Grasby, SE; Hutcheon, I; Krouse, HR.
 The influence of water-rock interaction on the chemistry
 of thermal springs in western Canada.
 pp. 439-454

 1.5 Gherardi, F; Panichi, C; Caliro, S; Magro, G; and others.
 Water and gas geochemistry of the Euganean and Berician
 thermal district (Italy) 
 pp. 455-474

 1.6 Tempel, RN; Shevenell, LA; Lechler, P; Price, J.
 Geochemical modeling approach to predicting arsenic
 concentrations in a mine pit lake. 
 pp. 475-492

 1.7 Siegel, DI; Bickford, ME; Orrell, SE.
 The use of strontium and lead isotopes to identify sources
 of water beneath the Fresh Kills landfill, Staten Island,
 New York, USA. 
 pp. 493-500

 1.8 Knauss, KG; Dibley, MJ; Leif, RN; Mew, DA; and others.
 The aqueous solubility of trichloroethene (TCE) and
 tetrachloroethene (PCE) as a function of temperature.
 pp. 501-512
 1.9 Sheppard, DS; Claridge, GGC; Campbell, IB.
 Metal contamination of soils at Scott Base, Antarctica.
 pp. 513-530

 1.10 Williams, TM; Dunkley, PN; Cruz, E; Acitimbay, V; and others.
Regional geochemical reconnaissance of the Cordillera
Occidental of Ecuador: economic and environmental
pp. 531-550